System and method for creating or modifying a welding sequence based on non-real world weld data

What is claimed is: 1. A welder system, comprising: a processor; and a non-transitory computer readable medium storing instructions for the processor to execute, the instructions comprising: a generate component that is configured to: receive a computer-based replication of a weld in a non-real world welding environment; and automatically create or edit a welding sequence to include a system check based on welding procedure data generated from the computer-based replication of a weld in the non-real world environment; and a welding job sequencer component that is configured to employ the welding sequence for a welding work cell to perform at least a first weld and a second weld in a real-world environment, wherein the welding sequence defines a sequence of operations, comprising at least: a first weld schedule having at least one first weld parameter; a second weld schedule having at least one second weld parameter, wherein at least one of said at least one second weld parameter is different from said at least one first weld parameter; and the system check, wherein the system check comprises a replacement of a consumable material used during the welding sequence, an inspection of equipment associated with the welding work cell, or a repair of equipment associated with the welding work cell; wherein the welder system is configured to perform at least the first weld and the second weld to assemble a workpiece by automatically adjusting a setting on a welding equipment within the welding work cell in accordance with the sequence of operations. 2. The welder system of claim 1 , wherein the welding job sequencer component further defines a notification to an operator of the welding work cell. 3. The welder system of claim 1 , wherein the welding procedure data from the non-real world environment comprises a computer-aided design (CAD) file. 4. The welder system of claim 1 , wherein the welding procedure data from the non-real world environment comprises a work instruction. 5. The welder system of claim 1 , wherein the welding procedure data from the non-real world environment comprises a data file that includes information related to at least one of a welding equipment setting, a weld type, a material of the workpiece, or a customer for the workpiece. 6. The welder system of claim 1 , wherein the welding procedure data from the non-real world environment comprises a welding procedure specification (WPS), wherein the WPS includes information for a specific application to assure repeatability by at least one of a welder or an operator. 7. The welder system of claim 1 , wherein the generate component utilizes the welding sequence as a portion of an additional welding sequence. 8. The welder system of claim 1 , further comprising a collect component that is configured to receive the welding procedure data from the non-real world environment. 9. The welder system of claim 1 , wherein the system is configured to create a work instruction based on the welding sequence. 10. The welder system of claim 1 , wherein the generate component is further configured to aggregate the welding procedure data from the non-real world environment to automatically determine at least one of the at least one first weld parameter or the at least one second weld parameter in the real-world environment. 11. The welder system of claim 1 , wherein the generate component is further configured to automatically identify which welding procedure data from the non-real world environment to use to create or edit the welding sequence. 12. The welder system of claim 1 , wherein the system check comprises the replacement of the consumable material, and wherein the system check is included in the welding sequence after a period of time based on an estimate of a consumable material usage from the welding procedure data. 13. The welder system of claim 12 , wherein the period of time is estimated based on the duration the welding equipment is used. 14. The welder system of claim 12 , wherein the consumable material comprises a welding wire or a welding gas. 15. The welder system of claim 12 , wherein the system check is included in the welding sequence to occur during a scheduled downtime. 16. The welder system of claim 15 , wherein an amount of consumable material remaining before replacement during the scheduled downtime is less than the estimate of the consumable material usage before a next scheduled downtime. 17. The welder system of claim 1 , wherein the system check comprises the inspection of equipment or the repair of equipment, and wherein the system check is included in the welding sequence after a period of time based on an estimate of the equipment usage from the welding procedure data. 18. The welder system of claim 15 , wherein the period of time is estimated based on the duration the welding equipment is used. 19. A welder system, comprising: means for executing computer readable instructions; and means for storing the computer readable instructions, the instructions comprising: creating a welding sequence for a welding work cell to perform at least a first weld and a second weld in a real-world environment, comprising: receiving a computer-based replication of a weld in a non-real world welding environment; and automatically creating or editing the welding sequence to include a system check based on welding procedure data generated from the computer-based replication of a weld in the non-real world environment; and wherein the welding sequence defines a sequence of operations, comprising at least: a first weld schedule having at least one first weld parameter; a second weld schedule having at least one second weld parameter, wherein at least one of said at least one second weld parameter is different from said at least one first weld parameter; and the system check, wherein the system check comprises a replacement of a consumable material used during the welding sequence, an inspection of equipment associated with the welding work cell, or a repair of equipment associated with the welding work cell; and means for employing the welding sequence for the welding work cell to perform at least the first weld and the second weld by automatically adjusting a setting on a welding equipment within the welding work cell in accordance with the sequence of operations.